Vacuum pump valve

ABSTRACT

A vacuum pump valve includes a valve body and a suction element. The valve body includes a sealing platform sealedly attached on the container at the opening thereof, and a guiding sleeve upwardly extended from the sealing platform to form a suction channel, wherein the sealing platform has an operation hole formed thereon at a position within the suction channel and at least a through ventilating groove communicating the receiving cavity of the container with an exterior thereof. The suction element is disposed within the suction channel of the valve body, including an enlarged sealing head adapted to seal on the sealing platform to enclose the ventilating groove thereof, and a guiding shaft extended from the sealing head to slidably mount at the sealing platform at the operation hole to move the sealing head between a releasing position and a sealing position.

CROSS REFERENCE OF RELATED APPLICATION

This application is a Divisional application of a non-provisionalapplication, having an application Ser. No. 11/002,944 and a filing dateof Dec. 01, 2004.

BACKGROUND OF THE PRESENT INVENTION

1. Field of Invention

The present invention relates to a sealing valve, and more particularlyto a vacuum pump valve which is capable of effectively sealing aparticular container in a vacuum manner.

2. Description of Related Arts

Vacuum pumps have widely been utilized to extract air from a foodcontainer, such as a plastic bag, so as to create a vacuum environmentwithin the container for preserving the food for a prolonged period oftime. The basic steps for sealing a container is pretty simple: first, avacuum pump is inserted into the container via a vacuum opening; second,a user may turn on the vacuum pump for extracting air within thecontainer, third, the vacuum pump is detached from the container,finally, the vacuum opening should be effective sealed to prevent airgoing in or out of the container via the vacuum opening.

As a matter of conventional practice, the latter step represents themost important factor in determining the final outcome of the vacuumsealing process. No matter how efficient and effective the vacuum pumpis, when the vacuuming process is finished, it has to be detached fromthe container and the vacuum opening must be effectively sealed in orderto prevent re-entering the container again. As a result, if there wassubstantial re-entering of air, the container would be filled withconsiderable amount of air which eventually contaminates micro-organismsand bacteria within the container sufficient to deteriorate the foodcontained in the container.

Conventional vacuum valve for sealing this vacuum opening is generallyunsatisfactory in that leakage frequently occurs between the containerand its exterior so that air can pass through the vacuum opening anddeteriorates the food in the container, which is originally supposed tobe preserved for a prolonged period of time.

Conventionally on the other hand, the above-mentioned vacuum pump may beutilized for sealing plastic bags as well as certain specificallydesigned rigid container. Very often, different kinds of containersutilize different kinds of sealing valves. For example, a sealing valvefor sealing a plastic bag may not be suitable to employ in a rigidcontainer so that another different kind of sealing valve is needed.This inevitably increases the manufacturing cost of the sealing valve aswell as the respective container as a whole.

Apart from all these, it must also be appreciate that very often, thepresence of sealing valve may affect the operation of the vacuum pumpand effective creation of vacuum environment within the container. Forexample, when a plastic bag is being vacuumed and collapsing, a boundarybetween the sealing valve and the plastic bag may not be fittedlyaligned so that a significant amount of air is trapped at the boundary.

SUMMARY OF THE PRESENT INVENTION

A main object of the present invention is to provide a vacuum pump valvewhich is capable of effectively sealing a particular container in avacuum manner, so as to retain a vacuum environment within the containerfor a prolonged period of time.

Another object of the present invention is to provide a vacuum pumpvalve comprising a suction element automatically operating correspondingwith a suction effect of a vacuum pump for allowing effective suctionand sealing of the container. In other words, the vacuum pump valveautomatically allow withdrawal of air within the container when thevacuum pump is turn on, and automatically seal the container when thevacuum pump is turned off and detached from the container.

Another object of the present invention is to provide a vacuum pumpvalve which is adapted for use in plastic bags as well as rigidcontainers so as to maximize its range of applications. In other words,the present invention is suitable for use in a wide variety ofcontainers.

Another object of the present invention is to provide a vacuum pumpvalve which does not interfere with an operation of the vacuum pump, noraffecting the passage of air within the container, so as to fullyco-operate with the operation of the vacuum pump in creating the vacuumenvironment within the container.

Another object of the present invention is to provide a vacuum pumpvalve which is easy and convenient to use, and economical tomanufacture, so as to minimize the ultimate selling price of the presentinvention for widespread application thereof.

Accordingly, in order to accomplish the above objects, the presentinvention provides a vacuum pump valve of a container having a cavityand an opening communicating therewith, comprising:

a valve body comprising a sealing platform sealedly attached on thecontainer at the opening thereof and guiding sleeve upwardly extendedfrom the sealing platform to form a suction channel, wherein the sealingplatform has an operation hole formed thereon at a position within thesuction channel and at least a through ventilating hole adjacent to theoperation hole to communicate the cavity of the container with anexterior thereof; and

a suction element, which is disposed within the suction channel of thevalve body, comprising an enlarged sealing head adapted to seal on thesealing platform to enclose the ventilating hole thereof and a guidingshaft extended from the sealing head to slidably mount at the sealingplatform at the operation hole to move the sealing head between areleasing position and a sealing position, wherein at the releasingposition, the guiding shaft is upwardly slid along the operation hole toupwardly pull the sealing head apart from the sealing platform so as toallow air in the cavity to be withdrawn through the ventilating hole,and at the sealing position, the guiding shaft is downwardly slid alongthe operation hole to seal the sealing head on the sealing platform atthe ventilating hole so as to retain the container in a vacuum manner.

These and other objectives, features, and advantages of the presentinvention will become apparent from the following detailed description,the accompanying drawings, and the appended claims.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of a vacuum pump valve according to a firstpreferred embodiment of the present invention.

FIG. 2A and FIG. 2B are sectional side views of the vacuum pump valveaccording to the above first preferred embodiment of the presentinvention, illustrating that the suction element is at the releasingposition and a sealing position respectively.

FIG. 3 is a perspective view of the vacuum pump valve according to theabove preferred embodiment of the present invention, illustrating thesuction grooves are radially extended to communicate the suctioncompartment with the receiving cavity.

FIG. 4 is an exploded perspective view of a vacuum pump valve of acontainer according to a second preferred embodiment of the presentinvention.

FIG. 5A and FIG. 5B are sectional side views of the vacuum pump valveaccording to the above second preferred embodiment of the presentinvention, illustrating that the suction element is at the releasingposition and a sealing position respectively.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

Referring to FIG. 1, FIG. 2A and FIG. 2B of the drawings, a vacuum pumpvalve of a container according to a first preferred embodiment of thepresent invention is illustrated, in which the container has a receivingcavity subject to an interior pressure, and an opening communicatingwith the receiving cavity. The vacuum pump valve comprises a valve body10 and a suction element 20.

According to a first preferred embodiment of the present invention, thevalve body 10 comprises a sealing platform 11 sealedly attached on thecontainer at the opening thereof, and a guiding sleeve 12 upwardlyextended from the sealing platform 11 to form a suction channel 13,wherein the sealing platform 11 has an operation hole 111 formed thereonat a position within the suction channel 13, and at least a throughventilating groove 112 communicating the receiving cavity of thecontainer with an exterior thereof, which is subject to an exteriorpressure.

On the other hand, the suction element 20, which is disposed within thesuction channel 13 of the valve body 10, comprises an enlarged sealinghead 21 adapted to seal on the sealing platform 11 to enclose theventilating groove 112 thereof, and a guiding shaft 22 extended from thesealing head 21 to slidably mount at the sealing platform 11 at theoperation hole 111 to move the sealing head 21 between a releasingposition and a sealing position, wherein at the releasing position,where the interior pressure is greater than the exterior pressure, theguiding shaft 22 is upwardly slid along the operation hole 111 toupwardly pull the sealing head 21 apart from the sealing platform 11 soas to allow air in the cavity to be withdrawn through the ventilatinggroove 112 by the virtue of pressure differential between the receivingcavity and the exterior thereof, as shown in FIG. 2A of the drawings.

On the other hand, when the sealing head 21 is at the sealing position,wherein the exterior pressure is greater than the interior pressure, theguiding shaft 22 is downwardly slid along the operation hole 111 to sealthe sealing head 21 on the sealing platform 11 at the ventilating groove112 so as to retain the container in a vacuum manner, as shown in FIG.2B of the drawings.

According to the first preferred embodiment of the present invention,the container is embodied as a plastic bag having the receiving cavitywhich defines the opening wherein the vacuum pump valve is arranged tocommunicates with the opening so as to selectively allow passage of airtherethrough, or alternatively, sealing of that opening to maintain thevacuum effect within the plastic bag.

Referring to FIG. 2A, FIG. 2B and FIG. 3 of the drawings, the guidingsleeve 12 is penetrating through the opening of the container forcommunicating the receiving cavity with an exterior of the containerthrough the suction channel 13, wherein the valve body 10 furthercomprises a securing base 14 outwardly extended from a bottom end of theguiding sleeve 12 underneath the sealing platform 11 for sealing at aninner side of the container, such as the sealing bag, at a position thatthe opening of the sealing bag is sealed around the guiding sleeve 12 soas to sealedly attach the valve body 10 to the sealing bag. Moreover,the sealing platform 11 and the securing base 13 together define avacuum compartment 113 therebetween within the receiving cavity of thecontainer.

The sealing platform 11 has a plurality of ventilating holeseccentrically distributed thereon adjacent to the operation hole 111wherein the ventilating holes are formed as a plurality of theventilating grooves 112 in such a manner that the enlarged sealing head21 of the suction element 20 is radially extended from the guiding shaft22 for sealing on the sealing platform 11 at the ventilating grooves 112so as to block passage of air between the receiving cavity and anexterior thereof.

It is worth mentioning that the suction element 20 further comprisesmeans for retaining the guiding shaft 22 in position when it is at thereleasing position. The retaining means is preferably embodied as ablocking latch 23 integrally protruded from a lower end of the guidingshaft 22 to lock up the guiding shaft 22 at the operation hole 111 in aslidably movable manner so as to block a further upward movement of thesealing head 21 when the sealing head 21 is upwardly moved at thereleasing position.

In other words, the blocking latch 23 is sidewardly extended from alower end portion of the guiding shaft 21 to align with an bottomsurface of the sealing platform 11 such that when the guiding shaft isupwardly slid along the operation hole 111 at the releasing position,the blocking latch 23 is arranged to bias against the bottom surface ofthe sealing platform 11 so as stop the guiding shaft 21 from furthersliding upwardly which would have led it to be detached from theoperation hole 111.

As first preferred embodiment, as shown in FIG. 2A and FIG. 2B of thedrawings, the blocking latch 23 is circular in shape and radially andcoaxially extended from the guiding sleeve 12 for retaining the valvebody 10 in position at the opening, while allowing communication betweenthe receiving cavity and the suction channel 13.

The valve body 10 is adapted for use in conjunction with a vacuum pumpwhich is utilized for withdrawing air from the container so as to createa vacuum effect in the receiving cavity. Accordingly, the guiding sleeveshould be shaped and crafted to allow communicating with a pumpingnozzle of the vacuum pump such that it is capable of withdrawing airfrom the receiving cavity of the container via the suction channel 13.

In order to fully seal the container, the vacuum pump valve of thepresent invention further comprises a retention lock 40 detachablymounted at the guiding sleeve 12 to enclose the suction channel 13between a locked position and an unlocked position, wherein at thelocked position, the retention lock 40 is sealed at the guiding sleeve12 at a position that a bottom biasing wall of the retention lock 40pushes the sealing head 21 downwardly to seal on the sealing platform 11so as to ensure that the suction element 20 sealing on the valve body10, and at the unlocked position, the retention lock 40 is slidablylifted up to allow the sealing head 21 to be pulled apart from thesealing platform 11 for discharging the air in the receiving cavity ofthe container. In other words, by attaching the retention lock 40 on theguiding sleeve 12, air is blocked from entering into the suction channel13 after the container has been sealed.

Referring to FIG. 3 of the drawings, in order to further improve suctionfeatures of the present invention, the securing base 14, which isradially extended from the guiding sleeve 12 and adapted to attach onthe plastic bag within the receiving cavity, has a plurality of suctiongrooves 141 indently formed at a bottom surface thereon to communicatethe receiving cavity with the vacuum compartment 113 and the ventilatinggrooves 112 of the sealing platform 11 for guiding the air in thereceiving cavity of the sealing bag towards the ventilating groove 112of said sealing platform 11.

Specifically, the suction grooves 141 are radially extended from acentral portion of the blocking latch 23 such that air in the vicinityof the respective end of each of the suction grooves 141 is allowed topass through the respective suction groove 141 to reach the vacuumcompartment 113.

The operation of the present invention according to the first preferredembodiment is as follows:

The retention lock 40 is first opened to allow passage of air with thesuction channel 13. After that, a suction nozzle of the vacuum pumpshould be fittedly engaged with the guiding sleeve 12. The vacuum pumpis then turn on for drawing air in the receiving cavity through theventilating grooves 112 while the suction element 20 is moved bypressure difference to slid upwardly so as to pull the enlarged sealinghead 21 above the ventilating grooves 112. As a result, air within thereceiving cavity will be gradually withdrawn and the plastic bagcollapses. At this stage, the vacuum pump creates a smaller exteriorpressure with respect to the greater interior pressure so as to draw airform the receiving cavity to the exterior thereof.

It is important to point out at this stage that when the plastic bagcollapses, the suction grooves 141 assists in guiding air at two sidesof the receiving cavity to be withdrawn to the suction compartment 113such that even if the plastic bag collapses to possibly block thecentral portion of the blocking latch 23, air within the receivingcavity can still to be withdrawn through the suction grooves 231.

When the plastic bag is fully vaccumized, it is to be detached from theguiding sleeve 12. Then, higher exterior pressure (atmospheric pressure)will force the suction element moving towards the receiving cavityhaving smaller interior pressure to slide downwardly along the operationhole 111 until the enlarged sealing head 21 is moved to seal on thesealing platform 11 at the ventilating grooves 112. At this stage, auser of the present invention may close the guiding sleeve 12 by theretention lock 40 so as to securely seal the plastic bag for a prolongedperiod of time.

Referring to FIG. 4 and FIG. 5A and FIG. 5B of the drawings, a vacuumpump valve according to a second preferred embodiment of the presentinvention is illustrated, in which the vacuum pump valve of a containerhaving a receiving cavity subject to an interior pressure comprises avalve body 10′, and a suction element 20′.

The valve body 10′ comprises a sealing platform 11′ sealedly attached onthe container at the opening thereof, and a guiding sleeve 12′ upwardlyextended from the sealing platform 11′ to form a suction channel 13′,wherein the sealing platform 11′ has an operation hole 111′ formedthereon at a position within the suction channel 13′, and at least athrough ventilating groove communicating the receiving cavity of thecontainer with an exterior thereof, which is subject to an exteriorpressure.

On the other hand, the suction element 20′, which is disposed within thesuction channel 13′ of the valve body 10′, comprises an enlarged sealinghead 21′ adapted to seal on the sealing platform 11′ to enclose theventilating groove 112′ thereof, and a guiding shaft 22′ extended fromthe sealing head 21′ to slidably mount at the sealing platform 11′ atthe operation hole 111′ to move the sealing head 21′ between a releasingposition and a sealing position, wherein at the releasing position,where the interior pressure is greater than the exterior pressure, theguiding shaft 22′ is upwardly slid along the operation hole 111′ toupwardly pull the sealing head 21′ apart from the sealing platform 11′so as to allow air in the cavity to be withdrawn through the ventilatinggroove 112′ through pressure differential between the interior pressureand the exterior pressure, as shown in FIG. 5A of the drawings.

On the other hand, when sealing head 21′ is at the sealing position,where the exterior pressure is greater than the interior pressure, theguiding shaft 22′ is downwardly slid along the operation hole 111′ toseal the sealing head 21′ on the sealing platform 11′ at the ventilatinggroove 112′ so as to retain the container in a vacuum manner, as shownin FIG. 5B of the drawings.

According to the second preferred embodiment of the present invention,the guiding shaft 22′ of the suction element 20′ has a diameter smallerthan that of the operation hole 111′ so as to define a ventilatingclearance between the respective sidewalls of the guiding shaft 22′ andthe operation hole 111′ wherein the ventilating groove 112′ is formed asthe ventilating clearance so as to communicate the receiving cavity withan exterior thereof for allowing air to pass therethrough.

In other words, when the suction element 20′ is at the sealing position,the enlarged sealing head 21′ is slid downwardly to close the operationhole 111′ so as to seal the ventilating groove 112′ for sealing thereceiving cavity of the container.

Furthermore, the valve body 10′ further comprises a sealing ring 15′disposed between an upper side of the sealing platform 11′ and a lowerside of the enlarged sealing head 21′ of the suction element 20′ in sucha manner to coaxially align with the operation hole 111′, so as toselectively block the ventilating groove 112′ from communicating thereceiving cavity and the exterior thereof.

Specifically, when the suction element 20′ is at the releasing position,the enlarged sealing head 21′ is slid upwardly to move away from thesealing ring 15′ so as to allow the receiving cavity communicating withthe exterior thereof via the ventilating groove 112′, as shown in FIG.5A of the drawings. On the other hand, when the suction element 20′ isat the sealing position, the enlarged sealing head 21′ is downwardlyslid towards the receiving cavity so as to block the ventilating groove112′ at the sealing ring 15′ for sealing the receiving cavity with theexterior thereof.

According to the second preferred embodiment of the present invention,the vacuum pump valve is meant to be use in conjunction with thecontainer which is embodied as a rigid container.

As in the first preferred embodiment, the vacuum pump valve also furthercomprises a retention lock 40′ comprising an air passage regulator 401′movably disposed within the suction channel 13′, wherein the air passageregulator 401′ is tubular in shape having an air cavity 4011′ formedtherein and a top opening communicating the air cavity 4011′ with anexterior of the valve body 10′. Moreover, the air passage regulator 401′further has a plurality of through air passage holes 4012′ formed on abottom wall 4013′ of the air passage regulator 401′ for communicatingthe suction channel 13′ with the air cavity 4011′. According to thesecond preferred embodiment, the air passage regulator 401′ is adaptedto move between a locking position and an unlock position, wherein atthe locking position, the air passage regulator 401′ is sealed at theguiding sleeve 12′ at a position that the bottom wall 4013′ of the airpassage regulator 401′ pushes the sealing head 21′ downwardly to seal onthe sealing platform 10′ so as to ensure the suction element 20′ sealingon the valve body 10′. In other words, air is not allowed to passthrough the air passage holes 4012′ and the ventilating groove 112′ forcreating the vacuum environment within the container.

On the other hand, when the air passage regulator 401′ is at the unlockposition, the air passage regulator 401′ is slidably lifted up to allowthe sealing head 21′ to be pulled apart from the sealing platform 11′for discharging the air in the receiving cavity. Thus, the air passageregulator 401′ is upwardly slid to create a suction gap between theenlarged sealing head 21′ and the bottom wall 4013′ of the air passageregulator 401′ in such a manner the enlarged sealing head 21′ is nowcapable of moving to the releasing position and create the ventilatinggroove 112′ at the operation hole 111′ and the clearance between theenlarged sealing head 21′ and the sealing ring 15′. In such a case, airwithin the receiving cavity of the container is allowed to be withdrawnthrough the ventilating groove 112′ and the air passage holes 4012′ toreach an air cavity 4011′ so as to be discharged to an exterior of thecontainer.

Moreover, the retention lock 40′ further comprises a sealing actuator412′ and a guiding rotor 413′, which is also tubular in shape, providedin the air cavity 4011′ within the suction channel 13′ for operativelymoving the air passage regulator 401′ between the locked position andthe unlock position in a linear manner.

Referring to FIG. 5A and FIG. 5B of the drawings, the guiding rotor 413′has at least one guiding track 4131′ spirally formed at an outercircumferential surface thereof wherein the air passage regulator 401′further has an engaging pin 4014′ protruded from a sidewall of the aircavity 4011′ to sildably engage with the guiding track 4131′ of theguiding rotor 413′. On the other hand, the sealing actuator 412′ isprovided on top of the air passage regulator 401′ to drive the guidingrotor 413′ to rotate in a predetermined open direction. Once the guidingrotor 413′ is driven to rotate, the engaging pin 4014′ is arranged tosildably move upwardly alone the guiding track 4131′ so as to move theair passage regulator 401′ upwardly alone the suction channel 13′ toreach the unlock position, where air is allowed to pass through theventilating groove 112′ and the air passage holes 4012′ for beingextracted out of the container.

From the forgoing descriptions, it can be deduced that the operation ofthe present invention according to the second preferred embodiment is asfollows:

Referring to FIG. 5A of the drawings, in order to withdraw air from thecontainer, the sealing actuator 412′ is rotated to drive the guidingrotor 413′ to rotate. Once the guiding rotor 413′ is rotated, the airpassage regulator is driven to move upwardly as guided by the guidingtrack 4131′. A vacuum pump is adapted to engage with the valve body 10′to create a sucking effect. As such, the suction element 20′ is pulledto move upwardly due to greater interior pressure and air is allowed topass through the ventilating groove 112′ and the air passage holes 4012′to reach an exterior of the container.

After the air has been withdrawn from the receiving cavity, greaterexterior pressure will force the suction element 20′ moving back to thesealing position. In order to lock the suction element 20′ in position,the sealing actuator 412′ is rotated in a predetermined lockingdirection which is opposite to the open direction so as to drive the airpassage regulator 401′ moving downwardly along the suction channel 13′at the locking position, as shown in FIG. 5B of the drawings.

In order to retain the suction element 20′ in position within theoperation hole 111′, it further comprises two holding arms 24′ upwardlyand sidewardly extended from the enlarged sealing head 21′ to align withthe bottom wall 4013′ of the air passage regulator 401′ so as to retainthe suction element 20′ substantially within the operation hole 111′.

According to the second preferred embodiment of the present invention,the vacuum pump valve further comprises a tubular vacuum separator 60′mounted within the receiving cavity underneath the valve body 10′ toprevent said air being directly extracted towards the suction element20′ from the receiving cavity, wherein a vacuum gap is formed betweenthe guiding sleeve 12′ and a top edge of the vacuum separator 60′ forallowing the air to be withdrawn to the suction element 20′ through thevacuum opening, as shown in FIG. 5A of the drawings.

In order to enhance the features of the present invention, the vacuumpump valve further comprises a date indicator 50′ provided on the valvebody 10′ to indicate the date of vacuuming by the vacuum pump.

One skilled in the art will understand that the embodiment of thepresent invention as shown in the drawings and described above isexemplary only and not intended to be limiting.

It will thus be seen that the objects of the present invention have beenfully and effectively accomplished. It embodiments have been shown anddescribed for the purposes of illustrating the functional and structuralprinciples of the present invention and is subject to change withoutdeparture from such principles. Therefore, this invention includes allmodifications encompassed within the spirit and scope of the followingclaims.

1. A vacuum pump valve of a container having a receiving cavity subjectto an interior pressure and an opening communicating with said receivingcavity, wherein said vacuum pump valve comprises: a valve body having asuction channel and comprising a sealing platform sealedly attached onsaid container at said opening thereof, wherein said sealing platformhas at least a through ventilating groove formed thereon within saidsuction channel for communicating said receiving cavity of saidcontainer with an exterior thereof, so as to allow suction of air fromsaid receiving cavity through pressure differential between saidinterior pressure and an atmosphere pressure; and a suction element,which is disposed within said valve body, comprising an enlarged sealinghead movably sealing on said sealing platform to enclose saidventilating groove thereof, wherein said sealing head is moved between areleasing position and a sealing position, wherein at said releasingposition, said sealing head is upwardly moved apart from said sealingplatform for allow air in said receiving cavity to be withdrawn throughsaid ventilating groove, and at said sealing position, said sealing headis downwardly moved to seal said ventilating groove on said sealingplatform in condition that said atmosphere pressure is greater than saidinterior pressure, so as to retain said container in a vacuum manner. 2.The vacuum pump valve, as recited in claim 1, wherein said sealingplatform has a plurality of ventilating holes spacedly formed thereon assaid ventilating groove in such a manner that said enlarged sealing headof said suction element is sealed at said ventilating grooves on saidsealing platform to normally block said air to enter into said receivingcavity through said ventilating grooves.
 3. The vacuum pump valve, asrecited in claim 1, wherein said sealing platform further has anoperation hole formed thereon at a position within said suction channel,wherein said suction element further comprises a guiding shaft which isextended from said sealing head and is slidably mounted at saidoperation hole to guide said sealing head to move between said releasingposition and said sealing position.
 4. The vacuum pump valve, as recitedin claim 2, wherein said sealing platform further has an operation holeformed thereon at a position within said suction channel, wherein saidsuction element further comprises a guiding shaft which is extended fromsaid sealing head and is slidably mounted at said operation hole toguide said sealing head to move between said releasing position and saidsealing position.
 5. The vacuum pump valve, as recited in claim 3,wherein said ventilating holes are formed on said sealing platform at aposition eccentrically adjacent to said operation hole.
 6. The vacuumpump valve, as recited in claim 4, wherein said ventilating holes areformed on said sealing platform at a position eccentrically adjacent tosaid operation hole.
 7. The vacuum pump valve, as recited in claim 1,wherein said valve body further comprises a guiding sleeve upwardlyextended from said sealing platform to form said suction channel forcommunicating with said receiving cavity of said container through saidventilating groove.
 8. The vacuum pump valve, as recited in claim 4,wherein said valve body further comprises a guiding sleeve upwardlyextended from said sealing platform to form said suction channel forcommunicating with said receiving cavity of said container through saidventilating groove.
 9. The vacuum pump valve, as recited in claim 6,wherein said valve body further comprises a guiding sleeve upwardlyextended from said sealing platform to form said suction channel forcommunicating with said receiving cavity of said container through saidventilating groove.
 10. The vacuum pump valve, as recited in claim 7,further comprising a retention lock detachably mounted at said guidingsleeve to enclose said suction channel between a locked position and anunlocked position, wherein at said locked position, said retention lockis sealed at said guiding sleeve at a position that a bottom biasingwall of said retention lock pushes said sealing head downwardly to sealon said sealing platform so as to ensure said suction element sealing onsaid valve body, and at said unlocked position, said retention lock isslidably lifted up to allow said sealing head to be pulled apart fromsaid sealing platform for discharging said air in said receiving cavity.11. The vacuum pump valve, as recited in claim 8, further comprising aretention lock detachably mounted at said guiding sleeve to enclose saidsuction channel between a locked position and an unlocked position,wherein at said locked position, said retention lock is sealed at saidguiding sleeve at a position that a bottom biasing wall of saidretention lock pushes said sealing head downwardly to seal on saidsealing platform so as to ensure said suction element sealing on saidvalve body, and at said unlocked position, said retention lock isslidably lifted up to allow said sealing head to be pulled apart fromsaid sealing platform for discharging said air in said receiving cavity.12. The vacuum pump valve, as recited in claim 9, further comprising aretention lock detachably mounted at said guiding sleeve to enclose saidsuction channel between a locked position and an unlocked position,wherein at said locked position, said retention lock is sealed at saidguiding sleeve at a position that a bottom biasing wall of saidretention lock pushes said sealing head downwardly to seal on saidsealing platform so as to ensure said suction element sealing on saidvalve body, and at said unlocked position, said retention lock isslidably lifted up to allow said sealing head to be pulled apart fromsaid sealing platform for discharging said air in said receiving cavity.13. The vacuum pump valve, as recited in claim 7, wherein said valvebody further comprises a securing base outwardly extended from a bottomend of said guiding sleeve for sealing at an inner side of a sealing bagof said container at a position that said opening of said sealing bag issealed around said guiding sleeve so as to sealedly attach said valvebody to said sealing bag.
 14. The vacuum pump valve, as recited in claim9, wherein said valve body further comprises a securing base outwardlyextended from a bottom end of said guiding sleeve for sealing at aninner side of a sealing bag of said container at a position that saidopening of said sealing bag is sealed around said guiding sleeve so asto sealedly attach said valve body to said sealing bag.
 15. The vacuumpump valve, as recited in claim 12, wherein said valve body furthercomprises a securing base outwardly extended from a bottom end of saidguiding sleeve for sealing at an inner side of a sealing bag of saidcontainer at a position that said opening of said sealing bag is sealedaround said guiding sleeve so as to sealedly attach said valve body tosaid sealing bag.
 16. The vacuum pump valve, as recited in claim 13,wherein said securing base has a plurality of suction grooves indent ona bottom surface of said securing base for guiding said air in saidreceiving cavity of said sealing bag towards said ventilating groove ofsaid sealing platform.
 17. The vacuum pump valve, as recited in claim14, wherein said securing base has a plurality of suction grooves indenton a bottom surface of said securing base for guiding said air in saidreceiving cavity of said sealing bag towards said ventilating groove ofsaid sealing platform.
 18. The vacuum pump valve, as recited in claim15, wherein said securing base has a plurality of suction grooves indenton a bottom surface of said securing base for guiding said air in saidreceiving cavity of said sealing bag towards said ventilating groove ofsaid sealing platform.
 19. The vacuum pump valve, as recited in claim 6,wherein said suction element further comprises a blocking latchintegrally protruded from a lower end of said guiding shaft to lock upsaid guiding shaft at said operation hole in a slidably movable mannerso as to block a further upward movement of said sealing head when saidsealing head is upwardly moved at said releasing position.
 20. Thevacuum pump valve, as recited in claim 18, wherein said suction elementfurther comprises a blocking latch integrally protruded from a lower endof said guiding shaft to lock up said guiding shaft at said operationhole in a slidably movable manner so as to block a further upwardmovement of said sealing head when said sealing head is upwardly movedat said releasing position.